Dynamic Adaptation of a Narrative Across Different Types of Digital Media

ABSTRACT

Techniques for dynamically adapting the presentation of a narrative to a user across a plurality of digital media are provided. In one embodiment, a computer system can maintain a narrative state for the narrative and, upon request, transmit a copy of the narrative state to a first digital medium client operated by the user. The first digital medium client can be configured to present the narrative to the user via a first digital medium in the plurality of digital media. Upon receiving the copy of the narrative state, the first digital medium client can adapt, based on the copy of the narrative state and one or more first rules, its presentation of the narrative to the user via the first digital medium. The first digital medium client can then update the copy of the narrative state based on portions of the narrative consumed by the user and transmit the updated copy to the computer system.

BACKGROUND

In recent years, advances in digital technology have given rise to aform of narrative expression known as digital storytelling. Althoughsimilar in many respects to traditional oral/written storytelling,digital storytelling makes use of digital media, rather than simply thespoken or printed word, to convey a story (i.e., narrative) to anaudience. By leveraging the capabilities of digital media and theirunderlying technology platforms, digital storytelling can provide a userexperience that is more interactive and immersive than traditionalstorytelling approaches.

As the types of digital media made available to users has grown, it hasbecome increasingly common for content creators involved in digitalstorytelling to produce “hybrid-media” narratives—in other words,stories that are conveyed via a multitude of different media, ratherthan via a single medium. Since these hybrid-media narratives can engageusers from multiple touchpoints, they have the potential to furtherincrease user exposure to, and immersion in, the narrative content.

Unfortunately, existing approaches for implementing a hybrid-medianarrative are limited in the sense that they do not provide a mechanismfor user consumption of, or interaction with, the narrative in thecontext of one medium to affect the presentation of that narrative tothe user in another medium. Thus, while the narrative can be consumedvia different media, the user experience with respect to each medium isessentially a “silo-ed” (i.e., separate and isolated) experience.

SUMMARY

Techniques for dynamically adapting the presentation of a narrative to auser across a plurality of digital media are provided. In oneembodiment, a computer system can maintain a narrative state for thenarrative and, upon request, transmit a copy of the narrative state to afirst digital medium client operated by the user. The first digitalmedium client can be configured to present the narrative to the user viaa first digital medium in the plurality of digital media. Upon receivingthe copy of the narrative state, the first digital medium client canadapt, based on the copy of the narrative state and one or more firstrules, its presentation of the narrative to the user via the firstdigital medium. The first digital medium client can then update the copyof the narrative state based on portions of the narrative consumed bythe user and transmit the updated copy to the computer system.

The following detailed description and accompanying drawings provide abetter understanding of the nature and advantages of particularembodiments.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 depicts a system environment according to an embodiment.

FIGS. 2 and 3 depict workflows for dynamically adapting the presentationof a narrative across different types of digital media according to anembodiment.

FIG. 4 depicts an example computing device/system according to anembodiment.

DETAILED DESCRIPTION

In the following description, for purposes of explanation, numerousexamples and details are set forth in order to provide an understandingof various embodiments. It will be evident, however, to one skilled inthe art that certain embodiments can be practiced without some of thesedetails, or can be practiced with modifications or equivalents thereof.

Embodiments of the present disclosure provide techniques for dynamicallyadapting the presentation of a narrative to a user across differenttypes of digital media (e.g., a video game, a digitally-streamed film orepisodic series, an electronic book, a web site, a virtual reality (VR)world, etc.). More specifically, these techniques can modify whatportions of, and/or the manner in which, the narrative is conveyed tothe user via one digital medium based on the narrative portions thathave already been consumed by the user via one or more other digitalmediums. With this solution, the user can experience the narrative in acohesive, connected, and consistent manner across the various mediatypes through which the narrative is made available.

These and other aspects of the present disclosure are described infurther detail in the sections that follow.

1. System Environment

FIG. 1 depicts a system environment 100 in which embodiments of thepresent disclosure may be implemented. As shown, system environment 100includes a number of client devices 102(1)-(N) that are owned and/oroperated by a user 104. Each client device 102 is an electronic deviceor system (e.g., a desktop/laptop computer, a game console, asmartphone, a tablet, etc.) that incorporates a digital medium client106. Each digital medium client 106 is, in turn, a software and/orhardware-based component that is configured to provide a platformthrough which narrative content, encoded in the form of a particulardigital medium, can be delivered to and consumed by user 104. By way ofexample, digital medium client 106(1) may be a video player that isconfigured to deliver a narrative in the form of a digital video (e.g.,a film or episodic series) for viewing by user 104, digital mediumclient 106(2) may be a video game application that is configured todeliver a narrative in the form of a video game for playing by user 104,digital medium client 106(3) may be an e-book reader that is configuredto deliver a narrative in the form of an electronic book for reading byuser 104, and so on.

While digital narratives are often conveyed via a single medium, in somecases a content creator may produce a hybrid-media narrative that spansmultiple different types of digital media. For instance, returning tothe example above, a content creator may produce a hybrid-medianarrative whose plot is developed/advanced through a combination of thedigital video delivered via the video player of client device 102(1),the video game delivered via the video game application of client device102(2), and the electronic book delivered via the e-book reader ofclient device 102(3). However, as noted in the Background section,existing approaches for implementing such hybrid-media narrativesgenerally fail to tie together the user's interaction with each mediatype into a singular and cohesive user experience.

To address this deficiency, system environment 100 includes a novelserver system 108 that is communicatively coupled with client devices102(1)-(N) (via, e.g., one or more networks 110) and is configured tomaintain an overall narrative state 112 for a hybrid-media narrative tobe presented to user 104 via digital medium clients 106(1)-(N). Inaddition, each digital medium client 106 is configured to include anovel narrative adaptation component 114.

As described in further detail below, when user 104 consumes or modifiesthe hybrid-media narrative via a first digital medium client, serversystem 108 can update its stored narrative state 112 to reflect theconsumed/modified portion. At a later time, when user 104 attempts toaccess the same narrative via a second digital medium client differentfrom the first digital medium client, the narrative adaptation componentof the second digital medium client can retrieve the most recent versionof narrative state 112 from server system 108 (which includes theupdates caused by the user's consumption of the narrative via the firstdigital medium client), inspect the retrieved state, and thendynamically adapt, using one or more rules, the second digital mediumclient's presentation of the narrative to user 104 in view of theretrieved state. For instance, if user 104 previously viewed aparticular plot point via the first digital medium client, the seconddigital medium client may modify the subsequent presentation of thenarrative to user 104 in a way that avoids repeating that same plotpoint, or assumes that user 104 is aware the plot point has alreadytranspired. In this manner, user 104 can be provided a sense ofcontinuity when consuming the hybrid-media narrative across the variousmedia types.

It should be appreciated that system environment 100 of FIG. 1 isillustrative and not intended to limit the embodiments described herein.For example, although each client device 102 is shown as including asingle digital medium client 106, in some embodiments a particularclient device 102 may include several different digital medium clients(e.g., a video player and a video game application).

Further, although a single instance of narrative state 112 (specific touser 104) is shown as being maintained by server system 108, in practiceserver system 108 will typically maintain multiple instances ofnarrative state 112, each being associated with a different registereduser (or group of users) of the system. One of ordinary skill in the artwill recognize other variations, modifications, and alternatives.

2. Workflows

FIGS. 2 and 3 depict high-level workflows 200 and 300 that may beperformed by server system 108 and client devices 102 of FIG. 1 fordynamic adapting the presentation of a hybrid-media narrative to user104 across different types of digital media according to an embodiment.

Starting with block 202 of workflow 200 (FIG. 2), server system 108 caninitialize narrative state 112, which reflects the state of thehybrid-media narrative for user 104, with initial or default valuesindicating that the state is “clean” (i.e., untouched by user 104). Thisstep will typically be performed when user 104 first registers himselfor herself with server system 108 and thus has not yet consumed anyportion of the narrative via digital medium clients 106(1)-(N).

In one set of embodiments, narrative state 112 can be implemented as akey-value store comprising key-value pairs, where each key identifies aunit of content in the hybrid-media narrative (e.g., a conversationexchange between actors, a plot point or scene, etc.), and where eachvalue indicates whether the content unit identified by the correspondingkey has been presented to, and thus consumed by, user 104. In theseembodiments, the initialization performed at block 202 can involvesetting the value of each key-value pair in narrative state 112 to“FALSE” (or an equivalent value such as “NO,” 0, etc.), therebyindicating that these units of content have not yet been consumed.

In alternative embodiments, narrative state 112 can be implemented usingany other type of data structure known in the art (e.g., a relationaldatabase, etc.) that is capable of representing the narrative as acollection of content units and is capable of storing metadata for eachcontent unit that reflects the unit's “consumed” status. In thesealternative embodiments, the initialization performed at block 202 caninvolve setting this metadata with initial/default values using amechanism that is appropriate for the data structure.

At block 204, user 104 can login to a first digital medium client 106(X)in order to access the narrative through the digital medium deliveredvia that client. For example, if digital medium client 106(X) is a videoplayer, user 104 can login to client 106(X) in order to access thenarrative as a digital video that is delivered through that video playerapplication. In various embodiments, the login process can beimplemented using a conventional approach whereby user 104 provides anindication of his/her identity (e.g., a registered user ID, emailaddress, etc.) and security credentials (e.g., a password, PIN, etc.) todigital medium client 106(X), and client 106(X) subsequentlyauthenticates user 104's identity using the supplied credentials. Thisauthentication can be performed locally on the client device hostingclient 106(X) or via communication with server system 108 (or a separateauthentication server).

At blocks 206 and 208, digital medium client 106(X) can retrieve a copyof narrative state 112 from server system 108 based on user 104'slogged-in identity and can inspect the retrieved state via its narrativeadaptation component 114(X). As part of block 208, narrative adaptationcomponent 114(X) can determine which content units of the narrative havebeen consumed by user 104 by virtue of the metadata associated with eachcontent unit in narrative state 112. In this particular example, sincenarrative state 112 is still “clean,” narrative adaptation component114(X) can determine that no content units have yet been consumed.

Then, at block 210, narrative adaptation component 114(X) candynamically adapt the presentation of the narrative to user 104 viaclient 106(X) based on the inspection performed at block 208 and one ormore predefined rules specific to client 106(X). Generally speaking,this adaptation can take into account what portions of the narrativehave already been consumed by user 104 (as indicated in narrative state112) and can determine what portions of, and/or how, the narrativeshould be presented next to user 104 in order to provide a sense ofstory continuity. As mentioned previously, in this particular examplenarrative state 112 is still clean, and thus narrative adaptationcomponent 114(X) may determine that the narrative should be presentedfrom the very beginning of its story arc (since user 104 has not yetconsumed any portion of the narrative).

At block 212, digital medium client 106(X) can present the narrative, inthe form of its associated digital medium, to user 104 in accordancewith the adaptation performed at block 210. For example, if digitalmedium client 106(X) is a video player application, client 106(X) maystream one or more video clips corresponding to the narrative's openingscene or episode. In response, user 104 can consume the presentedcontent (block 214).

Finally, at blocks 216 and 218, digital medium client 106(X) can updateits local copy of narrative state 112 based on the content consumed byuser 104 and can transmit the updated copy to server system 108 forstorage on that system. With these steps, server system 108 can be madeaware of the consumed portions so that this information can be exploitedby the other digital medium clients operated by user 104. In one set ofembodiments, the updating of narrative state 112 at block 216 cancomprise identifying the specific content units consumed by user 104 andsetting the metadata associated with those content units to indicate a“consumed” status. For instance, in embodiments where narrative state112 is implemented as a key-value store, this step can compriseidentifying the key-value pairs corresponding to the consumed contentunits and setting the value of each identified key-value pair to “TRUE”or an equivalent value.

Further, the transmission of the updated narrative state at block 218can comprise identifying the specific content units whose state has beenupdated per block 216 and sending those content units (and theirassociated metadata) to server system 108. This transmission may occurupon, e.g., user logout from digital medium client 106(X), and/or on acontinuous basis as user 104 is consuming the presented narrativecontent. For example, digital medium client 106(X) may send updatedstate information to server system 108 each time user 104 consumes acontent unit or passes a predefined checkpoint.

Turning now to workflow 300 (FIG. 3), at a later point in time, user 104can login to a second digital medium client 106(Y) that is differentfrom first digital medium client 106(X) in order to access the narrativethrough the digital medium delivered via client 106(Y) (block 302). Forexample, if digital medium client 106(Y) is a video game application,user 104 can login to client 106(Y) in order to access the narrative asa video game that is delivered through that application. Like block 204of workflow 300, this login process can be implemented using aconventional user ID and credentials-based authentication approach.

At block 304, digital medium client 106(Y) can retrieve the most recentcopy of narrative state 112 from server system 108 based on user 104'slogged-in identity. Note that since user 104 has already accessed thenarrative via digital medium client 106(X) per workflow 200, thisretrieved copy of narrative state 112 will reflect the narrative contentunits that have been consumed by user 104 via that first client.

At block 306, narrative adaptation component 114(Y) of digital mediumclient 106(Y) can inspect the retrieved narrative state, therebyidentifying the content units already consumed by user 104. Narrativeadaptation component 114(Y) can then dynamically adapt the presentationof the narrative in view of that knowledge and one or more predefinedrules specific to client 106(Y) (block 308). As mentioned previously,this adaptation step can specifically determine what portions of, and/orhow, the narrative should be presented next to user 104 in order toprovide a sense of story continuity. For instance, assume that user 104viewed opening scene S1 via digital medium client 106(X) at block 214 ofworkflow 200. In this scenario, narrative adaptation component 114(Y)can modify client 106(Y)'s presentation of the narrative to, e.g.,convey a subsequent piece of narrative content that follows from sceneS1, or otherwise adapt the narrative in a manner that assumes userknowledge of S1.

In many cases, the adaptation rules applied at block 308 (as well as atanalogous block 210 of workflow 200) will be tied in some fashion to thetype of digital medium supported by the digital medium client. Forexample, if digital medium client 106(Y) is a video game application asmentioned above, the adaptation may involve modifications that arespecific to the video game context (e.g., changing the game level theuser may play, changing the attributes of the player character orenvironment, changing the attributes of non-player characters (NPCs),etc.). However, in certain alternative embodiments, the adaptation rulesapplied at blocks 308/210 may also comprise rules that are moregenerally applicable to a range of different digital media.

At block 310, digital medium client 106(Y) can present the narrative, inthe form of its associated digital medium, to user 104 in accordancewith the adaptation performed at block 308. In response, user 104 canconsume the presented content (block 312).

Then, in a manner similar to blocks 216 and 218 of workflow 200, digitalmedium client 106(Y) can update its local copy of narrative state 112based on the content consumed by user 104 (block 314) and can transmitthe updated copy to server system 108 for storage on that system (block316).

Finally, at block 318, user 104 can subsequently access the narrativevia additional digital medium clients and workflow 300 can be repeatedfor those additional clients. In this way, narrative state 112 can becontinually updated by each digital medium client based on what has beenconsumed by user 104 via that client, and this evolving narrative statecan be exploited by each client to dynamically determine the narrativecontent that is presented next to the user. The end result of thisoverall process is that the narrative is conveyed in a cohesive andseamless manner to the user across the plurality of clients/mediums.

It should be appreciated that workflows 200 and 300 of FIGS. 2 and 3 areillustrative and various modifications are possible. For example,although workflows 200 and 300 indicate that the act of updatingnarrative state 112 is performed on the client side (i.e., by digitalmedium clients 106), in certain embodiments server system 108 may alsodirectly modify/update narrative state 112 based on one or moreserver-side rules. This can be useful in scenarios where the logic formodifying narrative state 112 is dependent on aggregate user behavior(which is known only to server system 108 and not to clients 106),and/or scenarios where the narrative states for multiple users need toupdated simultaneously based on some non-user-driven trigger. Forinstance, server system 108 may maintain a rule indicating that “thefirst 1000 users that consume content unit X will result in consequenceY; for any users after the 1000th user, consuming content unit X willresult in consequence Z.” In this case, since server system 108maintains the narrative states of all registered users, it can determinewhen 1000 users have consumed X and can inject information into thenarrative state of each user as appropriate (e.g., to reflect theoccurrence of consequence Y or Z).

Further, although narrative state 112 has been generally described ascomprising a collection of narrative content units (e.g., keys) andassociated metadata for each content unit (e.g., values) reflecting theunit's consumed status, in certain embodiments, narrative state 112 mayalso include additional data/metadata relevant to the overall state ofthe narrative with respect to user 104. For example, in one embodiment,narrative state 112 can also include temporal information indicating theorder in which certain content units have been consumed by user 104.This temporal information can be embodied in the form of, e.g., atimestamp that is associated with one or more content units. In anotherembodiment, in cases where the consumption of a particular content unitimplies that user 104 did not consume one or more alternative contentunits (e.g., the user chose path A instead of mutually exclusive paths Bor C), narrative state 112 can also include information identifying therelationships between these consumed and “unconsumed” content units.Narrative adaptation components 114 of digital medium clients 106 cantake into account all, or any subset, of these additional pieces ofdata/metadata at the time of adapting narrative content for presentationto user 104.

3. Example Narrative State and Adaptation Rules

To further illustrate the techniques described herein, Table 1 belowdepicts a simplified example of a narrative state that may be maintainedby server system 108 according to an embodiment. In this example, thenarrative is a murder mystery and the narrative state is composed offour content units relevant to the murder, each of which is associatedwith a GUID (globally unique identifier), a description, and a bit flagindicating its consumed status (e.g., 1 for consumed, 0 for notconsumed). These bit flags are initially set to 0, indicating that noneof the content units have yet been consumed by the user.

TABLE 1 GUID Description Bit Flag 1001 Murder has occurred 0 1002 Bodyhas been found 0 1003 Suspect ran away 0 1004 Murder investigationinitiated 0

In addition, Listings 1 and 2 below provide example adaptation rulesthat may be implemented by a video player and a video game applicationrespectively for dynamically adapting the presentation of the narrativein view of the narrative state. It should be appreciated that theserules are presented in an exemplary pseudo-code format and, in practice,can be structured according to any programming or rule language known inthe art.

Listing 1 IF bit flag(1001) == 0 Show scene(s) leading up to, andincluding, murder ELSE IF bit flag(1002) == 0 Show scene of userdiscovery of body ELSE show scene of murder investigation beinginitiated

Listing 2 IF bit flag(1001) == 0 Play interactive game level precedingthe murder ELSE IF bit flag(1002) == 0 Show noninteractive scene of userdiscovery of body Present user choice of staying at murder location orrunning away IF bit flag(1003) == 1 Play interactive game level ofescape sequence Show noninteractive scene of murder investigation beinginitiated

With the foregoing in mind, assume the user first logs into the videoplayer. In response, the video player will download the narrative stateassociated with the user (as depicted in Table 1) and apply this stateinformation to its adaptation rules (as depicted in Listing 1). Sincethe bit flag for content unit 1001 (i.e., “murder has occurred”) isinitially set to 0, video player will show the video scene(s) leading upto, and including, the murder to the user. In addition, the video playerwill update its local copy of the narrative state to change the bit flagfor 1001 from 0 to 1 (since the user has now consumed this contentunit).

Assume that the user subsequently logs off of the video player and logsinto the video game application. In this case, the video player willtransmit its updated copy of the narrative state to the server system,and the video game application will thereafter download the updatednarrative state for the user to local storage. The video gameapplication will then apply the updated state information to itsadaptation rules as depicted in Listing 2. Since the bit flag forcontent unit 1001 is now set to 1, the video game application will skipthe interactive game level preceding the murder and instead checkwhether the bit flag for content unit 1002 (i.e., “body has been found”)is set to 0 (which it is). In response, the video game application willshow a noninteractive scene of the user's discovery of the body (therebyupdating the bit flag for 1002 from 0 to 1) and provide the user achoice to stay at the murder location or to run away.

If the user decides to run away, the video game application will updatethe bit flag for content unit 1003 (i.e., “suspect ran away”) from 0 to1, and as a result allow the user to play an interactive game level ofan escape sequence. At the conclusion of this game level (or if the userdecided not to run away), the video game application will show anoninteractive cutscene of the murder investigation being initiated.Then, the video game application will update its local copy of thenarrative state to change the bit flag for 1004 from 0 to 1 (since theuser has now consumed this content unit).

Finally, if the user subsequently logs off of the video gameapplication, the video game application will transmit its updated copyof the narrative state to the server system. Thus, the updated narrativestate can be further used/exploited by the video player, the video gameapplication, and/or other digital medium clients the next time the userdecides to access the narrative via one of those clients.

4. Example Computing Device/System

FIG. 4 depicts an example computing device/system 400 according to anembodiment. Computing device/system 400 may be used to implement, e.g.,server system 108 or any of client devices 102(1)-(N) described in theforegoing sections.

As shown, computing device/system 400 can include one or more processors402 that communicate with a number of peripheral devices via a bussubsystem 404. These peripheral devices can include a storage subsystem406 (comprising a memory subsystem 408 and a file storage subsystem410), user interface input devices 412, user interface output devices414, and a network interface subsystem 416.

Bus subsystem 404 can provide a mechanism for letting the variouscomponents and subsystems of computing device/system 400 communicatewith each other as intended. Although bus subsystem 404 is shownschematically as a single bus, alternative embodiments of the bussubsystem can utilize multiple busses.

Network interface subsystem 416 can serve as an interface forcommunicating data between computing device/system 400 and othercomputing devices or networks. Embodiments of network interfacesubsystem 416 can include wired (e.g., coaxial, twisted pair, or fiberoptic Ethernet) and/or wireless (e.g., Wi-Fi, cellular, Bluetooth, etc.)interfaces.

User interface input devices 412 can include a keyboard, pointingdevices (e.g., mouse, trackball, touchpad, etc.), a scanner, a barcodescanner, a touch-screen incorporated into a display, audio input devices(e.g., voice recognition systems, microphones, etc.), and other types ofinput devices. In general, use of the term “input device” is intended toinclude all possible types of devices and mechanisms for inputtinginformation into computing device/system 400.

User interface output devices 414 can include a display subsystem, aprinter, a fax machine, or non-visual displays such as audio outputdevices, etc. The display subsystem can be a cathode ray tube (CRT), aflat-panel device such as a liquid crystal display (LCD), or aprojection device. In general, use of the term “output device” isintended to include all possible types of devices and mechanisms foroutputting information from computing device/system 400.

Storage subsystem 406 can include a memory subsystem 408 and a file/diskstorage subsystem 410. Subsystems 408 and 410 represent non-transitorycomputer-readable storage media that can store program code and/or datathat provide the functionality of various embodiments described herein.

Memory subsystem 408 can include a number of memories including a mainrandom access memory (RAM) 418 for storage of instructions and dataduring program execution and a read-only memory (ROM) 420 in which fixedinstructions are stored. File storage subsystem 410 can providepersistent (i.e., non-volatile) storage for program and data files andcan include a magnetic or solid-state hard disk drive, an optical drivealong with associated removable media (e.g., CD-ROM, DVD, Blu-Ray,etc.), a removable flash memory-based drive or card, and/or other typesof storage media known in the art.

It should be appreciated that computing device/system 400 isillustrative and not intended to limit embodiments of the presentdisclosure. Many other configurations having more or fewer componentsthan computing device/system 400 are possible.

The above description illustrates various embodiments of the presentdisclosure along with examples of how certain aspects may beimplemented. The above examples and embodiments should not be deemed tobe the only embodiments, and are presented to illustrate the flexibilityand advantages of the present disclosure as defined by the followingclaims. For example, although certain embodiments have been describedwith respect to particular process flows and steps, it should beapparent to those skilled in the art that the scope of the presentdisclosure is not strictly limited to the described flows and steps.Steps described as sequential may be executed in parallel, order ofsteps may be varied, and steps may be modified, combined, added, oromitted. As another example, although certain embodiments have beendescribed using a particular combination of hardware and software, itshould be recognized that other combinations of hardware and softwareare possible, and that specific operations described as beingimplemented in software can also be implemented in hardware and viceversa.

The specification and drawings are, accordingly, to be regarded in anillustrative rather than restrictive sense. Other arrangements,embodiments, implementations and equivalents will be evident to thoseskilled in the art and may be employed without departing from the spiritand scope of the invention as set forth in the following claims.

What is claimed is:
 1. A method comprising: maintaining, at a computersystem, a narrative state for a narrative to be presented to a useracross a plurality of digital media; and transmitting, by the computersystem, a copy of the narrative state to a first digital medium clientoperated by the user, wherein the first digital medium client isconfigured to present the narrative to the user via a first digitalmedium in the plurality of digital media, and wherein upon receiving thecopy of the narrative state, the first digital medium client isconfigured to: adapt, based on the copy of the narrative state and oneor more first rules, the first digital medium client's presentation ofthe narrative to the user via the first digital medium; update the copyof the narrative state based on portions of the narrative consumed bythe user; and transmit the updated copy of the narrative state to thecomputer system.
 2. The method of claim 1 wherein the narrative stateincludes a set of narrative content units and metadata associated witheach narrative content unit indicating whether the narrative contentunit has been consumed by the user.
 3. The method of claim 2 wherein thenarrative state is implemented as a key-value store, each narrativecontent unit being represented as a key in the key-value store and themetadata associated with the narrative content unit being represented asa corresponding value in the key-value store.
 4. The method of claim 2wherein each narrative content unit corresponds to a conversationexchange or scene within the narrative.
 5. The method of claim 2 whereinadapting the presentation of the narrative comprises determining whichportions of the narrative should be presented next to the user in viewof the narrative content units that have already been consumed by theuser.
 6. The method of claim 2 wherein updating the copy of thenarrative state comprises updating the metadata for each content unitconsumed by the user to reflect its consumed status.
 7. The method ofclaim 2 wherein the narrative state further includes a timestampassociated with each narrative content unit, the timestamp indicating atime at which the narrative content unit was consumed by the user. 8.The method of claim 2 wherein the narrative state further includes oneor more links between related narrative content units.
 9. The method ofclaim 1 further comprising: transmitting, by the computer system, theupdated copy of the narrative state to a second digital medium clientoperated by the user, wherein the second digital medium client isconfigured to present the narrative to the user via a second digitalmedium in the plurality of digital media that is different from thefirst digital medium, and wherein upon receiving the copy of thenarrative state, the second digital medium client is configured to:adapt, based on the updated copy of the narrative state and one or moresecond rules, its presentation of the narrative to the user via thesecond digital medium, the adapting taking into account the portions ofthe narrative previously consumed by the user via the first digitalmedium.
 10. The method of claim 9 wherein the second digital mediumclient is further configured to: further update the updated copy of thenarrative state based on portions of the narrative consumed by the uservia the second digital medium; and transmit the further updated copy ofthe narrative state to the computer system.
 11. The method of claim 1wherein the computer system maintains a plurality of narrative states,each narrative state being associated with a different user in aplurality of registered users.
 12. The method of claim 11 wherein thecomputer system is configured to modify one or more of the plurality ofnarrative states based on aggregate behavior of the plurality of users.13. The method of claim 11 wherein the computer system is configured tomodify one or more of the plurality of narrative states based on apredefined trigger.
 14. The method of claim 1 wherein the plurality ofdigital media include one or more of a digital video, a video game, anelectronic book, a web site, or a virtual reality world.
 15. The methodof claim 9 wherein the first digital medium is a digital video andwherein the second digital medium is a video game.
 16. The method ofclaim 1 wherein the computer system is a server system operated by acreator of the narrative.
 17. A non-transitory computer readable storagemedium having stored thereon program code executable by a computersystem, the program code causing the computer system to: maintain anarrative state for a narrative to be presented to a user across aplurality of digital media; and transmit a copy of the narrative stateto a first digital medium client operated by the user, wherein the firstdigital medium client is configured to present the narrative to the uservia a first digital medium in the plurality of digital media, andwherein upon receiving the copy of the narrative state, the firstdigital medium client is configured to: adapt, based on the copy of thenarrative state and one or more first rules, the first digital mediumclient's presentation of the narrative to the user via the first digitalmedium; update the copy of the narrative state based on portions of thenarrative consumed by the user; and transmit the updated copy of thenarrative state to the computer system.
 18. The non-transitory computerreadable storage medium of claim 17 wherein the program code furthercauses the computer system to: transmit the updated copy of thenarrative state to a second digital medium client operated by the user,wherein the second digital medium client is configured to present thenarrative to the user via a second digital medium in the plurality ofdigital media that is different from the first digital medium, andwherein upon receiving the copy of the narrative state, the seconddigital medium client is configured to: adapt, based on the updated copyof the narrative state and one or more second rules, its presentation ofthe narrative to the user via the second digital medium, the adaptingtaking into account the portions of the narrative previously consumed bythe user via the first digital medium.
 19. A computer system comprising:a processor; and a memory having stored thereon program code that, whenexecuted by the processor, causes the processor to: maintain a narrativestate for a narrative to be presented to a user across a plurality ofdigital media; and transmit a copy of the narrative state to a firstdigital medium client operated by the user, wherein the first digitalmedium client is configured to present the narrative to the user via afirst digital medium in the plurality of digital media, and wherein uponreceiving the copy of the narrative state, the first digital mediumclient is configured to: adapt, based on the copy of the narrative stateand one or more first rules, the first digital medium client'spresentation of the narrative to the user via the first digital medium;update the copy of the narrative state based on portions of thenarrative consumed by the user; and transmit the updated copy of thenarrative state to the computer system.
 20. The computer system of claim19 wherein the program code further causes the processor to: transmitthe updated copy of the narrative state to a second digital mediumclient operated by the user, wherein the second digital medium client isconfigured to present the narrative to the user via a second digitalmedium in the plurality of digital media that is different from thefirst digital medium, and wherein upon receiving the copy of thenarrative state, the second digital medium client is configured to:adapt, based on the updated copy of the narrative state and one or moresecond rules, its presentation of the narrative to the user via thesecond digital medium, the adapting taking into account the portions ofthe narrative previously consumed by the user via the first digitalmedium.